Manufacturer Part Number
9VRS4338DKLFT
Manufacturer
renesas-electronics-america
Introduction
The 9VRS4338DKLFT is a specialized clock/timing component designed for specific applications within computing and communication systems.
Product Features and Performance
Incorporates PLL technology for precise frequency synthesis.
Specifically tailored for use in Intel Atomic™ platforms and PCI Express (PCIe) applications.
Capable of generating differential output signals for enhanced signal integrity.
Supports frequency up to 200MHz for high-speed operations.
Operates with a supply voltage range from 1.05V to 1.5V, allowing for low power consumption.
Designed for surface mount technology facilitating compact and efficient layout designs.
Product Advantages
Precision timing solution optimized for Intel Atomic™ and PCIe infrastructures.
Low voltage operation enhances power efficiency.
Differential output capability improves signal integrity and reduces electromagnetic interference.
High-frequency support meets the demands of high-speed digital systems.
Key Technical Parameters
PLL: Yes
Main Purpose: Intel Atomic™, PCI Express (PCIe)
Frequency Max: 200MHz
Voltage Supply: 1.05V ~ 1.5V
Operating Temperature: 0°C ~ 70°C
Mounting Type: Surface Mount
Package / Case: 48-VFQFN Exposed Pad
Supplier Device Package: 48-VFQFPN (6x6)
Quality and Safety Features
Built to adhere to rigorous industry standards for quality and reliability.
Compatibility
Specifically designed for compatibility with Intel Atomic™ platforms and devices utilizing PCI Express (PCIe) interfaces.
Application Areas
Computing systems
Communication infrastructure
PCIe-based hardware applications
Product Lifecycle
This component is listed as obsolete, indicating that it is nearing the end of its production life, with limited availability and potential for replacements or upgrades.
Several Key Reasons to Choose This Product
Optimized for critical timing roles in Intel Atomic™ and PCIe systems, ensuring compatibility and performance.
Low power consumption is ideal for energy-efficient designs.
Enhanced signal integrity through differential output, supporting high-speed data transfer applications.
High-frequency operation capabilities meet the requirements of modern digital infrastructures.
Obsolescence status necessitates consideration for long-term project planning and potential need for future replacement or upgrade solutions.